JAVA: Unified Java Example names

Unified all Java examples to *match* <LIBRARY>[_otherstuf]_Example.java.
Note, a handful of the examples have a pseudo-random string for the
first component (see FlexSensor_Example.java, ideally this would be
Flex_Example.java).

This commit allows for quick development on a single sensor library
since a -DMODULE_LIST=mysensorlib now works with Java examples
(previously Java examples would fail generation when using
MODULE_LIST).

    * Renamed examples
    * Updated class names
    * Updated library descriptor .json files
    * Updated sample mapping file

TODO: Make this work like the C/C++ examples - grab the target library
name from the filename and grab all dependencies from that target
library.  Fix the handful of example names which don't conform.

Signed-off-by: Noel Eck <noel.eck@intel.com>
This commit is contained in:
Noel Eck
2018-02-27 12:12:09 -08:00
parent 86e8471cad
commit c54d6de054
315 changed files with 5209 additions and 5168 deletions

View File

@ -1,39 +1,39 @@
{
"Library": "dfrec",
"Description": "DFRobot EC Meter Library",
"Sensor Class":
{
"DFREC":
{
"Name": "Analog Electrical Conductivity (EC) Sensor",
"Description": "The driver was tested with the DFRobot EC Analog Sensor. This device measure the electrical conductivity of an aqueous solution. The included probe is a K=1 model. Calibration is somewhat complicated - see the DFRobot wiki for instructions on calibration. Functions are provided to supply the appropriate values. By default, the values used in the DFRobot arduino example are used.",
"Aliases": ["dfrec"],
"Categories": ["ec", "conductivity"],
"Connections": ["analog", "uart"],
"Project Type": ["industrial"],
"Manufacturers": ["dfrobot"],
"Kits": [],
"Examples":
{
"Java": ["DFREC_Example.java"],
"Python": ["dfrec.py"],
"Node.js": ["dfrec.js"],
"C++": ["dfrec.cxx"],
"C": ["dfrec.c"]
},
"Specifications":
{
"Operating Voltage": {"unit": "V", "Typ": 5},
"Measurement Range": {"unit": "mS/cm", "low": 1, "high": 20},
"Operating Temperature": {"unit": "degC", "low": 5, "high": 40}
},
"Urls" :
{
"Product Pages": ["https://www.dfrobot.com/product-1123.html"],
"Datasheets": [""],
"Schematics": ["http://image.dfrobot.com/image/data/DFR0300/DFR0300_v1.0_schematic.pdf"]
}
}
}
}
{
"Library": "dfrec",
"Description": "DFRobot EC Meter Library",
"Sensor Class":
{
"DFREC":
{
"Name": "Analog Electrical Conductivity (EC) Sensor",
"Description": "The driver was tested with the DFRobot EC Analog Sensor. This device measure the electrical conductivity of an aqueous solution. The included probe is a K=1 model. Calibration is somewhat complicated - see the DFRobot wiki for instructions on calibration. Functions are provided to supply the appropriate values. By default, the values used in the DFRobot arduino example are used.",
"Aliases": ["dfrec"],
"Categories": ["ec", "conductivity"],
"Connections": ["analog", "uart"],
"Project Type": ["industrial"],
"Manufacturers": ["dfrobot"],
"Kits": [],
"Examples":
{
"Java": ["DFREC_Example.java"],
"Python": ["dfrec.py"],
"Node.js": ["dfrec.js"],
"C++": ["dfrec.cxx"],
"C": ["dfrec.c"]
},
"Specifications":
{
"Operating Voltage": {"unit": "V", "Typ": 5},
"Measurement Range": {"unit": "mS/cm", "low": 1, "high": 20},
"Operating Temperature": {"unit": "degC", "low": 5, "high": 40}
},
"Urls" :
{
"Product Pages": ["https://www.dfrobot.com/product-1123.html"],
"Datasheets": [""],
"Schematics": ["http://image.dfrobot.com/image/data/DFR0300/DFR0300_v1.0_schematic.pdf"]
}
}
}
}